KR101210901B1 - Led light dimming system - Google Patents

Abstract

The present invention relates to a dimming system of the LED luminaire lighting to control the calibration (calibration) of the LED luminaire lighting according to the ambient light, and to implement the LED luminaire lighting of the optimal state by the dimming function. As a configuration, the present invention provides a power supply unit for supplying the input AC power to the operating power of the LED lighting; An illuminance sensor for sensing the brightness of the ambient illuminance; A switching unit for turning on / off an AC power supplied from the power supply unit; An operation state display unit displaying an LED operation state according to a switching signal generated by the switching unit; And a control unit generating an output control signal according to an illuminance signal input from the illuminance sensing unit, and performing a calibration according to the switching signal generated from the switching unit. do.

Description

LED light dimming system {LED light dimming system}

The present invention relates to a dimming system of the LED luminaire lighting, and more particularly, to control the calibration of the LED luminaire lighting according to the ambient lighting and to realize the optimal LED luminaire lighting by the dimming function. It relates to a dimming system of the LED luminaire lighting.

In general, LED (Light Emitting Diode) is a light emitting diode and emits light when current flows. It is manufactured using semiconductor manufacturing process, and LED has high reliability, easy modulation, stable operation, etc. Has the advantage of.

In recent years, the efficiency of LEDs has been greatly improved, resulting in a long life and low energy consumption, which is economical and environmentally friendly, compared to conventional lighting devices such as fluorescent lamps and incandescent lamps. Therefore, the LED lighting device employing the LED can replace the conventional luminaires such as fluorescent lamps, incandescent lamps, etc., and is emerging as the next generation lighting device.

On the other hand, as a related art related to the lighting fixtures, Utility Model Registration No. 20-0385296 (2005.05.27) and Patent Registration No. 10-0154652 (1998.12.15) are disclosed.

In the prior art, such as the above-mentioned registered utility model (20-0385296), only the automatic brightness is controlled by using the ambient brightness and sunrise sunset time, there is no calibration function of the luminaire.

In addition, in the prior art such as the above-mentioned patent publication (Japanese Patent Application No. 10-0154652), it provides only a dimming function in consideration of the reduction of the luminous flux of the luminaire, the dirt of the wall, etc., and there is no calibration function of the luminaire. In addition, the amount of light at the time of turning on / off the luminaire is not controlled, causing a glare due to a sudden change in the amount of light.

Therefore, the necessity of dimming function of the luminaire as well as the calibration function is combined to dim the luminaire lighting under optimal conditions.

Accordingly, the present invention has been made to solve the above-mentioned conventional problems, and an object thereof is to provide a dimming system of LED lighting fixtures to control the calibration of the LED lighting fixtures according to the ambient lighting.

Another object of the present invention is to provide a dimming system of the LED luminaire lighting to control the amount of light of the LED luminaire lighting by the dimming function to prevent the glare of the LED luminaire lighting.

According to the present invention for achieving the above object, a power supply for supplying the input AC power to the operating power of the LED lighting fixture; An illuminance sensor for sensing the brightness of the ambient illuminance; A switching unit for turning on / off an AC power supplied from the power supply unit; An operation state display unit displaying an LED operation state according to a switching signal generated by the switching unit; And a control unit generating an output control signal according to an illuminance signal input from the illuminance sensing unit, and performing a calibration according to the switching signal generated from the switching unit. do.

The apparatus may further include a data memory for storing the illuminance signal sensed by the illuminance sensing unit at the time of being calibrated according to the switching signal generated by the switching operation of the switching unit in an internal memory.

The controller may be configured to detect a switching frequency of the switching unit to perform a calibration function or to select a dimming function when the number of operations of the switching unit is repeated a predetermined number or more.

In addition, the operation state display unit is formed integrally, and when the red LED and the green LED is emitted at the same time by outputting the color of the yellow LED, it characterized in that to display the three operating states by using two LED elements.

According to the present invention as described above, it is possible to control the illumination dimming of the LED luminaire so that the calibration (calibration) state of the LED luminaire illumination previously set according to the ambient light is corrected to the calibration state of the current luminaire.

In addition, the present invention can be controlled by the dimming function (dimming) the amount of light of the LED luminaire lighting can reduce the glare of the LED luminaire lighting due to excessive illumination.

In addition, the present invention minimizes the inconvenience caused by the change in the illumination by minimizing the sudden change in the illumination, it is possible to minimize the energy consumption while realizing the illumination of the optimum conditions.

1 is a block diagram showing a dimming system of LED lighting fixture according to the present invention,
FIG. 2 is a circuit diagram of the dimming system shown in FIG. 1;
Figure 3 is a flowchart showing the entire process of the calibration for the LED luminaire lighting according to the present invention,
Figure 4 is a timing diagram according to the input power on / off operation of the LED luminaire according to the present invention.

It is to be understood that the words or words used in the present specification and claims are not to be construed in a conventional or dictionary sense and that the inventor can properly define the concept of a term in order to describe its invention in the best possible way And should be construed in light of the meanings and concepts consistent with the technical idea of the present invention.

The dimming system of the LED luminaire lighting according to the present invention controls the execution of the calibration of the LED luminaire lighting based on the output data according to the on / off switching operation of the input AC power, based on the amount of light of the LED luminaire lighting There is a technical feature of performing a dimming function to be controlled.

Hereinafter, the present invention configured as described above will be described in detail with reference to the accompanying drawings.

1 is a block diagram showing a dimming system of the LED lighting fixture according to the present invention, Figure 2 is a circuit diagram of the dimming system shown in FIG. Here, the components (switching section, dimming control section) not shown in Fig. 2 is found to be electrically interconnected with the circuit configuration of the present invention as a separate configuration.

1 and 2, the dimming system of the present invention includes a power supply unit 110, an illuminance detection unit 120, a switching unit 130, an operation state display unit 140, a controller 150, and data storage. The unit 160, the dimming control unit 170 and the LED lighting lamp 180 is configured to include.

The power supply unit 110 serves to supply stable power required for the operation of the dimming system of the present invention, and also converts or converts the input AC power supplied from the outside into a voltage required for the operation of the LED luminaire. It includes the ability to invert.

The power supply unit 110 uses a switching mode power supply (SMPS), a power supply for LED lighting, and furthermore, a power supply for LED lighting having a dimming function for adjusting the pulse width (PWM) according to the brightness of the ambient light. Since it utilizes a known LED lighting power supply in the field to utilize the specific circuit configuration and operation description will be omitted.

In addition, such a known LED lighting power supply may be provided with a voltage and current sensing unit, which senses the input voltage and output voltage of the ballast to determine the normal operation of the ballast. If the rated voltage is detected and the current is not sensed, the LED lamp lamp is judged to have reached the end of its life, thereby protecting the ballast by blocking the input voltage of the ballast.

The illuminance detection unit 120 is configured as an illumination sensor for detecting the brightness of the ambient light, and outputs the output of the sensor to 0.1V ~ 2.56 according to the brightness of the light. In particular, the illuminance sensor value outputs the average value other than the maximum value and the minimum value based on at least 30 times of input illuminance data. In this case, although the CDS is used as the illuminance sensor in the present invention, any kind of sensor may be used as long as it is not limited thereto and an illuminance sensor detecting light.

The switching unit 130 is a switch for turning on and off the input AC power and calibrating the on / off switching operation of the input AC power on the basis of the output switching signal repeated a predetermined number of times within a predetermined time. Use it as a basis for judging the calibration. That is, when the on / off switching operation is repeated five times or more within 5 seconds, the controller 150 outputs a calibration execution signal.

The operation state display unit 140 displays an LED operation state according to a switching signal generated by the switching unit 130. The operation state display unit 140 includes a light emitting diode in which a red LED and a green LED are integrally formed.

In addition, the red LED and the green LED emit light according to the operation state of the switching unit 130. When the red LED and the green LED are ON at the same time, yellow ) It will output the color of LED.

The controller 150 functions as a microprocessor to control the respective components of the dimming system of the LED lighting, and the illuminance of the LED lighting according to the output signal detected from the illuminance detecting unit 120 and the switching unit 130. The calibration is controlled so that it can be adjusted.

In this case, as shown in FIG. 4, the calibration is performed by reading the internal memory stored in the data storage unit 160 when the switching unit 130 of the input AC power is ON. Store as "1" and save as "0" when 5 seconds have elapsed, and "2" is stored in memory when the switching unit 130 is turned off and on again within 5 seconds. If more than 5 seconds have elapsed, it is stored as "0".

That is, when the switching unit 130 repeatedly turns on or off five or more switching operations within 5 seconds in this manner, the control unit 150 outputs a calibration execution signal. Of course, there is no time recognition when the input power is OFF.

In more detail, the controller 150 receiving the on / off switching signal generated by the switch unit 130 recognizes the command signal to execute the calibration operation when the number of on / off switching times is input five or more times. In addition, the command signal flashes the red LED of the operation state display unit 140 at 1 second intervals for 1 minute to indicate that it is in a calibration state.

Then, when 1 minute has elapsed, the green LED blinks for 4 minutes, and the illuminance value is input from the illuminance sensor 120 and stored in the internal memory of the data storage unit 160. In this case, the LED brightness in the operation state display unit 140 is output to the maximum brightness.

Here, the basic illuminance value which is not dimmed is set as a state capable of illuminating without being affected by the peripheral illuminance as the LED luminaire, and this is the calibration state of the present invention.

Data storage unit 160 is composed of a memory of the form, such as EEPROM (EEPROM) output data for the on / off switching operation of the switching unit 130, that is, the illumination value input from the illumination detection sensor of the calibration complete state Will be saved. In addition, according to the signal of the controller 150 that reads data information such as a switching operation that is repeated five or more times within 5 seconds in the on / off switching operation, the calibrated illuminance value stored in the data storage unit 160 is read and adjusted. Dimming is performed by comparing the illuminance data detected by the detector 120.

The dimming controller 170 outputs the LED light lamp 180 according to a control signal of the controller 150 that compares the output signal of the illuminance sensor 120 and the illuminance value of the stored and stored data storage unit 160. Is controlled to be dimming in the area to be dimmed by a known method such as pulse width (PWM) adjustment.

That is, the illuminance value output from the illuminance detection unit 120 is converted into a digital signal and input to the controller 150, and the dimming control signal utilizes the dimming function of the power supply unit 110 to pulse according to the brightness of the surroundings. By controlling the width of the signal by adjusting the PWM, dimming is performed to adjust the lamp brightness of the LED lighting.

3 is a flowchart showing the entire process of the calibration for the LED light fixture according to the present invention, will be described with reference to the circuit diagram shown in FIG.

(1) state before calibration

The state before the calibration according to the present invention, that is, the calibration of the LED luminaire lighting is not necessary, and it is determined that there is no set value of the preset calibration.

The process includes inputting an on / off switching operation signal of an AC power source; Determining an execution state of a calibration according to whether the on / off switching operation of the AC power is repeated a predetermined number of times or more within a predetermined time; Emitting a red LED after emitting a yellow LED for a predetermined time when the on / off switching operation is determined to be less than a predetermined number of times within a predetermined time and there is no preset calibration value; And setting the brightness of the LED luminaire lighting to the maximum.

In more detail, in the state in which the AC power of the power supply unit 110 is input (S110), the controller 150 outputs the on / off switching of the switching unit 130 stored in the data storage unit 160. On the basis of the signal to determine whether the calibration (calibration) of the LED light fixtures (S120).

That is, when five or more output switching signals for the on / off switching of the switching unit 130 are not input to the control unit 150 before the execution of the calibration, the operation state display unit 140 for the initial five seconds. The transistors Q2 and Q3 are simultaneously operated to control the yellow LED to be emitted (S130), and the transistor Q3 is operated again to emit the red LED (S140). At this time, the LED lighting is set to the maximum brightness.

(2) Execution state of calibration

In the calibration execution state according to the present invention, that is, the on / off switching operation is a case where the calibration of the LED luminaire lighting is performed by a repetition of a certain number of times within a predetermined time.

The process includes inputting an on / off switching operation signal of an AC power source; Determining an execution state of a calibration according to whether the on / off switching operation of the AC power is repeated a predetermined number of times or more within a predetermined time; Initializing a data storage unit when the on / off switching operation is determined to be a predetermined number or more within a predetermined time; Flashing a red LED for a predetermined time and then flashing a green LED and storing a current illuminance detection value; When the predetermined time has elapsed, the third indicator emits light and terminates the calibration.

In more detail, in the state where the AC power supplied from the power supply unit 150 is turned on, the control unit 150 repeats the on / off switching signal of the switching unit 130 more than five times within 5 seconds. It is checked whether the number of switching signals is input (S210).

That is, when the switching unit 130 of the input AC power is turned on as shown in FIG. 4, the internal memory stored in the data storage unit 160 is read and initially stored as “1” in the memory. When the second (sec) has elapsed, it is stored as "0". When the switching unit 130 is turned off and turned on again within 5 seconds, "2" is stored in the memory, and 5 seconds or more have elapsed. When the switching unit 130 repeatedly turns on / off five or more switching operations within 5 seconds by repeatedly executing the stored method as “0”, the controller 150 outputs a calibration execution signal.

In this case, when the yellow LED of the operation state display unit 140 emits light, the switching signal of the switching unit 130 is turned off, and the control unit 150 turns on previously stored data of the data storage unit 160. The on / off switching output data is erased (refer to the initialization state) (S220).

In this state, while the calibration operation is executed, the controller 150 controls the illumination of the LED light lamp 180 to the maximum brightness. Then, the controller 150 operates the transistor Q3 of the operation state display unit 140 so that the red LED blinks at 1 second intervals for 1 minute (S230). This represents the lamp settling time (standby time) of the initial LED luminaire.

In that state, the controller 150 controls the green LED to blink for 4 minutes by operating the transistor Q2 of the operation state display unit 140 when 1 minute has elapsed (S240), and at the same time, the illumination intensity detecting unit 120 The illuminance sensor value of the is stored in the data storage unit 160 (S250).

Thereafter, when the last five minutes have elapsed, the operation of the calibration is completed while the green LED is emitted by operating the transistor Q2 of the operation state display unit 140 again (S260).

(3) state after calibration

The state after the calibration according to the present invention, that is, the on / off switching operation is a state in which the calibration of the LED luminaire lighting is no longer necessary by a certain number of repetitions within a predetermined time, and maintains the preset calibration state. The case is shown.

The process includes inputting an on / off switching operation signal of an AC power source; Determining an execution state of a calibration according to whether the on / off switching operation of the AC power is repeated a predetermined number of times or more within a predetermined time; Checking a set value of a preset calibration when the on / off switching operation does not receive a predetermined number of switching signals within a predetermined time; Setting the illumination of the LED luminaire to the maximum brightness for a period of time while emitting a green LED; Comparing the illuminance detection value detected in the current state with a preset calibration value; Performing a dimming operation for adjusting the brightness of the LED lighting lamp based on the comparison result.

In more detail, the switching signal of the on / off switching unit 130 of the input AC power is turned on (S310), and the setting value of the internal memory stored in the data storage unit 160 is checked ( S320).

Thereafter, the green LED of the operation state display unit 140 is turned on and operated at the maximum brightness for 3 minutes (S330). After 3 minutes have elapsed in the control unit 150 receives the illuminance sensor signal of the illuminance sensor 120 to output a pulse width (PWM) signal (S340). At this time, the pulse width (PWM) signal is adjusted by the converter built in the power supply unit 110 so that the illumination of the final LED luminaire lamp 180 is dimmed.

That is, the illuminance value output from the illuminance detection unit 120 is converted into a digital signal and input to the dimming control unit 170, and by using the dimming function of the power supply unit 110 by the dimming control signal according to the ambient brightness level. By controlling the size of the signal by adjusting the pulse width to perform a dimming operation to adjust the brightness of the LED lighting lamp 180 (S350).

In other words, in the current state, the illumination detection value detected from the illumination detection unit 120 and the preset calibration value is compared, and the dimming to adjust the brightness of the LED lamp lamp 180 based on the comparison result value Run the job.

Meanwhile, in the following description of the present invention, the yellow LED (hereinafter referred to as the first indicator), the red LED (hereinafter referred to as the second indicator), and the green LED (hereinafter referred to as the third indicator) of the operation state display unit 140 will be referred to.

While specific embodiments of the present invention have been described and illustrated above, it will be apparent that the present invention may be embodied in various modifications by those skilled in the art. Such modified embodiments should not be understood individually from the technical idea or viewpoint of the present invention, but should be included in the claims attached hereto.

110: power supply unit 120: roughness detection unit
130: switching unit 140: operation state display unit
150: control unit 160: data storage unit
170: dimming control unit 180: LED lighting lamp

Claims (4)

A power supply unit supplying the input AC power to the operating power of the LED lighting fixture;
An illuminance sensor for sensing the brightness of the ambient illuminance;
A switching unit for turning on / off an AC power supplied from the power supply unit;
An operation state display unit displaying an LED operation state according to a switching signal generated by the switching unit;
A data storage unit for storing the illuminance signal sensed by the illuminance detection unit when calibrated according to a switching signal generated by the switching operation of the switching unit in an internal memory; And
And a controller configured to generate an output control signal according to the illuminance data inputted from the illuminance sensing unit, and to perform calibration according to the switching signal generated from the switching unit.
delete The method of claim 1, wherein the control unit repeats a predetermined number of times of operation of the switching unit. A dimming system for LED lighting, characterized in that for detecting the number of switching of the switching unit to perform a calibration function or to select a dimming function.
The display apparatus of claim 1, wherein the operation state display unit is integrally formed, and when the second indicator and the third indicator emit light at the same time, the three indicators display three operating states by using two LED elements by outputting the color of the first indicator. Dimming system of LED luminaire lighting characterized in that.

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